Basal Body Temperature Difference Before and During The Endometrial Wall Decay on The Menstrual Cycle
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Published:
Apr 22, 2018
Keywords:
basal body temperature endometrial decay menstrual cycle
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Abstract
The menstrual cycle is a complex process involving hormones and reproductive organs. Hormonal changes that occur in the menstrual cycle result in changes in body basal temperature in women. Basal body temperatures can identify phase changes in one menstrual cycle. This study is to determine whether there is influence of decay of the endometrium wall against the basal body temperature in adolescent girls. This research is observational analytic with cross sectional time approach. This study was conducted on 60 samples with the age of 19-22 years. Data used in this research are primary data that is basal body temperature measurement and questioner. The analysis in this study is paired sample t test test using SPSS 16. The results obtained significance value of 0.003 <0.05, so it can be concluded that there is influence of decay of the endometrium wall in the menstrual cycle against changes in basal body temperature. The endometrial wall decay on the menstrual cycle causes basal body temperature decreased compare with before the uterine lining decay or menstruation.
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How to Cite
Mustika, I., Lusiana, N., Kusumawati, E., & Purnamasari, R. (2018). Basal Body Temperature Difference Before and During The Endometrial Wall Decay on The Menstrual Cycle. Journal of Health Science and Prevention, 2(1), 1–7. https://doi.org/10.29080/jhsp.v2i1.112
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References
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8. Scherwitzl EB, Hirschberg AL, Raoul Scherwitzl. Identification and prediction of the fertile window using Natural Cycles. The European Journal of Contraception and Reproductive Health Care. :2015.
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13. Kusumawati E, Mustika I, Lusiana N, Andyarini EN. Biologi dan Reproduksi. Surabaya: Program Studi Arsitektur UIN Sunan Ampel; 2017.
14. Bishop, ML. Edward, P.et al. Clinical Chemistry:Techniques, Principles,Correlations (6th Ed.). Lippincott Williams & Wilkins; 2010.
15. Yazed MSM, Mahmud F. The development of IoT based BBT charting and monitoring using ThingSpeak. In 2017 [cited 2018 Mar 23]. p. 030088. Available from: http://aip.scitation.org/doi/abs/10.1063/1.4968341
16. Kawamori A, Fukaya K, Kitazawa M, Ishiguro M. A self-excited threshold autoregressive state-space model for menstrual cycles: forecasting menstruation and identifying ovarian phases based on basal body temperature. :25.
17. Shilaih M, Goodale BM, Kubler F, Clerck VD, Leeners B. Modern fertility awareness methods: Wrist wearables capture the changes of temperature associated with the menstrual cycle. 2017;
18. Kräuchi K, Konieczka K, Roescheisen-Weich C, Gompper B, Hauenstein D, Schoetzau A, et al. Diurnal and menstrual cycles in body temperature are regulated differently: A 28-day ambulatory study in healthy women with thermal discomfort of cold extremities and controls. Chronobiology International. 2014 Feb;31(1):102–13.
19. Watanabe M, Nakamura Y, Tomiyama C, Abo T. A Specific Pattern in the Basal Body Temperature Chart during the First Week of Pregnancy May Warn of a Miscarriage Crisis. Health. 2016;08(08):723–9.
20. Khoirul Latifin, Satria Yudha Kusuma. Panduan Dasar Klinik Keperawatan. Gunung Samudera; 2014.
21. Novia I, Puspitasari N. Faktor Risiko yang Mempengaruhi Kejadian Disminore Primer. The Indonesian Journal of Public Health. 2008;2(4).
22. Astuti E., Noravina L. Prevalensi Kejadian Gangguan Menstruasi Berdasarkan Indeks Masa Tubuh (IMT) pada Siswa Kelas VII SMP. Jurnal Ilmu Kebidanan. 2016;3(1).
23. Hall N, White C, O’Sullivan AJ. The relationship between adiponectin, progesterone, and temperature across the menstrual cycle. Journal of Endocrinological Investigation. 2009 Mar;32(3):279–83.
2. Wiknjosastro H. Ilmu Kandungan. Jakarta: Yayasan Bina Pustaka sarwono Prawiroharjo; 2012.
3. J.Heffner L, J.Schust D. At a Glance : SISTEM REPRODUKSI. In: Editisi Kedua. Jakarta: Penerbit Erlangga; 2006.
4. SIMIC N, RAVLIC A. Changes in Basal Body Temperature And Simple Reaction Times During The menstrual Cycle. Arh Hig rada Toksikol. 2013;99–106.
5. Kim J-H, Park S-E, Jeung G-W, Lee J-W, Choi H-, Kim K-S. Estimation of a Menstrual Cycle by Covariance Stationary-Time Series Analysis on the Basal Body Temperatures. Journal of Medical and Bioengineering. 2016;5(1):63–6.
6. Risqiwati D, Nurlimatita. DETEKSI SIKLUS OVULASI WANITA DENGAN MONITORING SUHU BASAL TUBUH. Seminar nasional teknologi dan rekayasa (SENTRA). :2017.
7. Barron ML, Fehring R. Basal Body Temperature Assessment: Is It Useful to Couples Seeking Pregnancy? :15.
8. Scherwitzl EB, Hirschberg AL, Raoul Scherwitzl. Identification and prediction of the fertile window using Natural Cycles. The European Journal of Contraception and Reproductive Health Care. :2015.
9. Cakir M, Mungan I, Karakas T, Girisken I, Okten A. Menstrual pattern and common menstrual disorders among university students in Turkey. Pediatrics International. 2007;
10. Freundl G, Frank-Herrmann P, Brown S. A new method to detect significant basal body temperature changes during a woman’s menstrual cycle. Journal The European Journal of Contraception & Reproductive Health Care. 2014;Volume 9(5).
11. Dawn B. Marks, PHD, Allan D. Marks, PhD, Colleen. M Smiith, PhD. Biokimia Dasar Kesehatan : Sebuah Pendekatan Klinis. Jakarta: EGC;
12. Fukaya K, Kawamori A, Osada Y, Kitazawa M, Ishiguro M. The forecasting of menstruation based on a state-space modeling of basal body temperature time series: K. FUKAYA ET AL . Statistics in Medicine. 2017 Sep 20;36(21):3361–79.
13. Kusumawati E, Mustika I, Lusiana N, Andyarini EN. Biologi dan Reproduksi. Surabaya: Program Studi Arsitektur UIN Sunan Ampel; 2017.
14. Bishop, ML. Edward, P.et al. Clinical Chemistry:Techniques, Principles,Correlations (6th Ed.). Lippincott Williams & Wilkins; 2010.
15. Yazed MSM, Mahmud F. The development of IoT based BBT charting and monitoring using ThingSpeak. In 2017 [cited 2018 Mar 23]. p. 030088. Available from: http://aip.scitation.org/doi/abs/10.1063/1.4968341
16. Kawamori A, Fukaya K, Kitazawa M, Ishiguro M. A self-excited threshold autoregressive state-space model for menstrual cycles: forecasting menstruation and identifying ovarian phases based on basal body temperature. :25.
17. Shilaih M, Goodale BM, Kubler F, Clerck VD, Leeners B. Modern fertility awareness methods: Wrist wearables capture the changes of temperature associated with the menstrual cycle. 2017;
18. Kräuchi K, Konieczka K, Roescheisen-Weich C, Gompper B, Hauenstein D, Schoetzau A, et al. Diurnal and menstrual cycles in body temperature are regulated differently: A 28-day ambulatory study in healthy women with thermal discomfort of cold extremities and controls. Chronobiology International. 2014 Feb;31(1):102–13.
19. Watanabe M, Nakamura Y, Tomiyama C, Abo T. A Specific Pattern in the Basal Body Temperature Chart during the First Week of Pregnancy May Warn of a Miscarriage Crisis. Health. 2016;08(08):723–9.
20. Khoirul Latifin, Satria Yudha Kusuma. Panduan Dasar Klinik Keperawatan. Gunung Samudera; 2014.
21. Novia I, Puspitasari N. Faktor Risiko yang Mempengaruhi Kejadian Disminore Primer. The Indonesian Journal of Public Health. 2008;2(4).
22. Astuti E., Noravina L. Prevalensi Kejadian Gangguan Menstruasi Berdasarkan Indeks Masa Tubuh (IMT) pada Siswa Kelas VII SMP. Jurnal Ilmu Kebidanan. 2016;3(1).
23. Hall N, White C, O’Sullivan AJ. The relationship between adiponectin, progesterone, and temperature across the menstrual cycle. Journal of Endocrinological Investigation. 2009 Mar;32(3):279–83.